Supervisory control system



e 25, 1940. L. D. WHITE ET AL 2,205,895

SUPERVISQRY CONTROL SYSTEM Original Filed Dec. 3, 1936 5 Sheets-Sheet 1 z E as E 5; '3 t Inventors:

. Q Leo D. White 3'Q Clyde lifitewart,

Then" Attorney.

- MMMW June 25, 1940. w nr AL 2,205,895

SUPERVISORY CONTROL SYSTEM Original Filed Dec. 3, 1936 5 Sheets-Sheet 2 Inventors:

Lee .D. White Clyde )3. Stewart,

by 77 6: j

Thelr Attorney.

Fig.2.

June 25, 1940.

L. 0. WHITE ET 2,205,895

SUPERVISORY CONTROL SYSTEM Original Filed Dec. 3, 1936 5 Sheets-Sheet 3 Inventor-s:

Leo D. Wh ite, Clgde E. Stewavt, ft

b fi m/1 76:

Their Attorney- June 25, 1940. 1.; 0. WHITE m- AL 2,205,895

SUPERVISORS! common s sma original Filed Dec. 3, 1935 s Sheets-Sheet 4 g Inventors:

Y1 Leo D. White Q Clyde E. Stewart,

by Fwd s Attorney.

June 25, 1940. L. D. WHITE ET AL 2,205,895

SUPERVISORY CONTROL SYSTEM Original Filed Dec. 3, 1936 5 Sheets-Sheet 5 Inventor: Leo D. White, Clyde EStewaTt, by (5:17

Their Attorney.

atented June 25, 1940 UNITED STATES PATE N T O F F l =1;

SUPERVISORY CONTROL SYSTEM Original application December 3, 1936, Serial No. 114,002. Divided and this application June 1,

1938, Serial No. 211,162

4 Claims.

Our invention relates to supervisory control systems for supervising and controlling apparatus in a remote station from a control station such as a dispatchers office.

This application is a division of our application Serial No. 114,002, filed December 3, 1936, which covers \an improved two-wire supervisory control system of the type disclosed and claimed in the copending application, Serial No. 689,087, filed September 12, 1933, by James H. Oliver and assigned to the same assignee as this application and which issued February 8, 1938, as Patent 2,107,902. In this type of system a desired apparatus unit in the remote station is selected by transmitting to the remote station over two line conductors, which interconnect the two stations, a predetermined code of current impulses individual to the desired apparatus unit. After the selection is made, it is checked by transmitting over the two line conductors in series to the control station a predetermined code of impulses individual to the selected unit and then an impulse of a character corresponding to the position of the selected unit. If the check code corresponds to the select code, the selected apparatus unit can then be operated by transmitting an impulse over the two line conductors.

One object of our invention is to provide an improved transmitting arrangement for effecting the transmission of the desired codes of current impulses.

Our invention will be better understood from the following description when taken in connection with the accompanying drawings, and its scope will be pointed out in the appended claims.

Referring to the accompanying drawings, which comprise Figs. 1 to 5, inclusive, sufficient apparatus and circuits of a supervisory control system embodying our invention have been shown therein, by means of the usual conventional diagrams to enable our invention to be readily explained and understood by those skilled in the art. The apparatus and circuits diagrammatically shown in Figs. 1 and 2 are located in the control or dispatchers oflice, and the apparatus and circuits diagrammatically shown in Figs. 3, 4 and 5 are located at the remote station, which is connected to the dispatchers office by the two line conductors Ll and L2.

At the dispatchers office, we provide a group of control keys and indicating lamps for each apparatus unit to be selected and controlled at the remote station. In the particular system shown in detail in the drawings, it is possible to make thirty-two different selections at the remote station. Therefore, it is possible to have thirty-two diiierent groups of keys and lamps at the dispatchers office. However, in order to simplify the disclosure, only two groups of keys and lamps are shown, one of the groups corresponding to the apparatus unit AUI at the remote station and the other group corresponding to the apparatus unit AU32. The thirty-two possible selections in the particular system shown are divided into two groups of sixteen selections, and the selection whereby apparatus unit AUI is selected is in one group and the selection whereby apparatus unit AU-32 is selected is in the other group.

Each group of keys consists of a two-position select key such as SK-l and SK--32, which is operated by the dispatcher when he wants to select the corresponding apparatus unit for operation and a two-position disagreement key such as DK-l and DK-32 which controls the operation of the corresponding indicating lamps. Each group of indicating lamps consists of a red lamp such as RE! and RE-32 which, when lighted, indicates that the corresponding apparatus unit is in its closed position; a green lamp such as G--l and G32 which, when lighted, indicates that the corresponding apparatus unit is in its open position; a white lamp, such as Wi and W--32, which, when lighted, indicates that the position of the corresponding apparatus unit does not correspond with the position of the associated disagreement key; and an amber lamp such as AM-l and AM-32, which, when lighted, indicates that the corresponding apparatus unit has been properly selected for operation. Each group of keys and lamps has associated therewith an individual indicating relay such as IR! and IR32 which determines by its position whether the associated red or green lamp is lighted and which cooperates with the associated control key to determine whether the associated white lamp is lighted. The position of each indicating relay in turn is determined by the position of the corresponding apparatus unit in a manner which will be hereinafter described.

As shown in Fig. 1, the indicating relays IRi and IR.32 are in the positions they occupy when the corresponding apparatus units AUl and AU-32 are in their open {positions and the control keys DK-l and DK--32 are shown in the corresponding positions so that the green lamps G-I and G32 are lighted and the other lamps associated with select keys SK--l and SK32 are not lighted. It will be readily seen from Fig. 1 that if either disagreement key shoud be moved to its other position, the associated white lamp would be lighted.

When the dispatcher desires to make a certain selection at the remote station, he operates the corresponding select key at the dispatchers ofiice and this effects at the dispatchers oflice the operation of two finder switches l-F and 2-F to positions corresponding to the operated select key. The operation of the select key also effects the energization of either the group relay l or the group relay 4, depending upon which group of sixteen selections at the remote station the desired selection is in. The energized group relay and the position of the finder switch |--F sets up a code, consisting of a series of six positive and'negative current impulses, which is individual to the operated select key. As soon as the finder switch IF stops in the position corresponding to the operated select key, the operation of a code sender l-S is initiated to transmit over the two line conductors L-l and L2 the code which has been set up by the energized group relay and the operated finder switch i-F.

As shown in the drawings, the finder switches l-F and 2F and the code sender l-S are selector switches of the well-known rotary type comprising a plurality of banks of twenty-five contacts, each bank having associated therewith a cooperating wiper. Each switch is provided with a suitable operating magnet for simultaneously moving all of the wipers thereof in a step by step movement over the contacts of the respective banks. As shown in Fig. 1, the finder switch |-F consists of six banks, IFI to l-Fii, inclusive, a cooperating wiper for each bank, and an operating magnet l-FM; the finder switch 2--F consists of four banks, 2Fl to 2F4, inclusive, a cooperating wiper for each bank and an operating magnet 2FM; and the code sender I-S consists of six banks l-S| to lS6, inclusive, a cooperating wiper for each bank, and an operating magnet l-SM.

Normally, each of the finder switches IF and 2-F is in its position 1'7 as shown in the drawings. The operation of any select key causes each finder switch to move from its position 17 to a position corresponding to the operated select key. For example, when the select key SKI is operated, each finder switch moves to its position 1 and when the select key SK--32 is operated, each of these switches moves to its position 16. These switches remain in these new positions until the operated select key is restored to its normal position. When the switch l--F stops in any one of its positions 1 to 16, inclusive, corresponding to an operated select key, the operating magnet l-SM of the code sender l-S is operated to move the code sender IS from its normal position to its position17. During this operation of the code sender IS a circuit is completed in its positions 5, 7, 9, 11, 13, and. 15 for either the relay P or the relay N depending upon the position of the finder switch l-Fand upon which group relay is energized. The relay P, when energized, is arranged to cause a positive impulse to be transmitted over the line conductors L-l and L--2 and the relay N, when energized, is arranged to cause a negative impulse to be transmitted over the line conductors L-l and L-Z. In this manner, a series of six positive and negative impulses permutated individual to the operated select key is transmitted to the remote station to effect the desired selection.

At the remote station, each of these current impulses energizes a polarized relay L so that it effects the energization of the relay L'P' in response to a positive impulse and the relay LN' in response to a negative impulse. The relays L'P' and UN are so connected that the first impulse of the series of six impulses constituting the select code effects the energization of either the relay Rl or R-2, depending upon the polarity of the impulse. At the termination of this first impulse, relay R--3 is energized to transfer the connections so that the second impulse of the select code effects the energization of either the relay R-4 or R.5, depending upon the polarity of the second impulse. At the termination of the second impulse the relay R6 is energized to transfer the connections so that the third impulse of the select code effects the operation of either the relay R-'I or R'-8, depending upon the polarity of the third impulse. In a similar manner, the relays R-9, R-l2, R'l5, and R.'l8 are respectively energized at the end of the third, fourth, fifth, and sixth impulses of the select code and either the relay R-l0 or R-l I is energized in response to the fourth impulse and either the relay R-l3 or R.'l4 is energized in response to the fifth impulse and either the relay R'--l6 or RI| is energized in response to the sixth impulse of the selection is one of the group of sixteen selections which includes the selection whereby apparatus unit AU-l is selected, and the relay 4' is energized when the desired selection is one of the other group of sixteen which includes the selection whereby the apparatus unit AU32 is selected.

If either the group relay l or 4 is energized when the relay RK-IB is energized at the termination of the last impulse of the select code a finder switch l--F and either finder switch 2-1 or 5F', depending upon which group relay is energized, are operated at the remote station to positions corresponding to the combination in which the relays R-l, R,8, Rl0, R-ll, R."--l3, Rl4, R'-I6, and R'l1 are energized as a result of the last four impulses of the select code. The finder switches l-F, 2-F', and 5--F' are similar in construction to the finder switches IF and the code sender IS at the dispatchers ofiice in that each of these switches is a rotary selector switch including six banks of twenty-five contacts. Normally, each of these finder switches at the remote station is in its zero position. When the group relay I is energized in response to the first two impulses of the select code, the subsequent energization of relay R-l8 at the termination of the last impulse of the select code causes the finder switch IF' to move to a position corresponding to the selection effected by the last four impulses of the select code and also causes the finder switch 2F'-' tion effected by the last four impulses of the se- 75 lect code. In the arrangement shown, the last four impulses of the select code are arranged to energize the relays R-1, R- 8, R'--ll], Rl l, R'-I3, Rl4, R'--I6, and R'-l'l in sixteen different combinations and each of these sixteen combinations is arranged to complete suitable circuits through corresponding contacts in corresponding banks of the finder switches lF-2-F', and 5-F'. For example, the select code transmitted in response to the operation of the select key SKI effects the sequential energization of the relays R''l, R'-l0, R,l3, and R'-I 6, so that a circuit is completed through certain contacts of these four relays in series to contact I in banks |-F2, 2-F'2, and 5F2 to stop the finder switches in this particular position. Similarly the select code transmitted in response to the operation of the select key SK-32 is arranged to effect the sequential energization of the relays R'--8, R'--l l, R'-I4, and R.'l1 so that a circuit is completed through certain contacts of these relays in series to contacts IS in the banks l-F2, 2F2, and 5-F2 to stop the finder switches in this particular position.

As soon as the finder switches IF' and 2-1 or |F and 5F have reached the positions corresponding to the selection that has been established by the select code, a code sender I--S', which is similar in construction to the code sender IS at the dispatchers office is started to transmit to the dispatchers office over the two line conductors LI and L2 a check code which is individual to the selection that has been established. In the arrangement shown this check code consists of a series of six positive and negative impulses and is set up by the energized group relay and the position in which the finder switch l-F stops and preferably is the same as the corresponding select code.

Normally, the code sender IS' is in its zero position and when the finder switch |F stops in a position corresponding to an established selection the operating magnet l-SM of the code sender I-S is operated to move the code sender l-S' to its position l4. During this operation of the code sender IS', a circuit is completed in its positions 2, 4, 6, 8, 10, and 12 for either the relay P or the relay N, depending upon the position of the finder switch |F and upon which group relay is energized at the remote station. The relay P, when energized, is arranged to cause a positive impulse to be transmitted over the line conductors L-| and L-2 and the relay N, when energized, is arranged to cause a negative impulse to be transmitted over the line conductors L-l and L-2. In this manner, a series of six positive and negative impulses permutated individual to the selection which has been established is transmitted to the dispatchers office. Also when the sender lS reaches its position l4 either the relay P or N is energized in a manner hereinafter described to effect the transmission over the line conductors L-l and L2 of either a positive or a negative impulse, depending upon the position of the apparatus unit which has been selected.

At the dispatchers office, each of the impulses of the check code energizes a polarized relay L so that it effects the energization of a relay LP in response to a positive impulse and a relay LN in response to a negative impulse. The relays LP and LN are so connected that the first impulse of the check code effects the energization of either the relay R-l or R-2, depending upon the polarity of this impulse. At the termination of this first impulse, relay R-3 is energized to transfer the connections so that the second impulse of the check code efiects the energization of either th relay R-4 or R-5, depending upon the polarity of the second impulse. At the termination of the second impulse, relay R6 is energized to transfer the connections so that the third impulse of the check code efiects the operation of either the relay R-'! or R8, depending upon the polarity of the third impulse. In a similar manner, the relays R9, R-|2, R-I5, and R-l8 are respectively energized at the end of the third, fourth, fifth, and sixth impulses of the check code and either the relay Rl0 or R--| i is energized in response to the fourth impulse, and either the relay R,l3 or R-M is energized in response to the fifth impulse, and either the relay R--l6 or RIl is energized in response to the last impulse of the check code.

When the relay Rl8 is energized at the termination of the last impulse of the check code, it effects the momentary opening of certain holding circuits which had previously been established for the energized group relay and the finder switches l-F and 2-F at the dispatchers oifice. However, if the check code agrees With the select code that has previously been transmitted, the relays R|, R-Z, R-fl, and R5 are. energized in the proper combination to establish a substitute holding circuit for the energized group relay and the relays R'l, R8, Rlll, RI I, R-l3, Rl4, R--l6, and RFI'I are also energized in the proper combination to establish substitute holding circuits for the finder switches. IF and 2F during the momentary interval that the original holding circuit is interrupted. Also, if the check code agrees with the select code, the amber light associated with the operated select key is lighted to inform the dispatcher that the desired selection has been made. Also the necessary circuit connections are established at the dispatchers ofiice so that the dispatcher can operate the selected apparatus unit by operating his operating keys MCK and MTK.

The indication impulse which follows the check code operates either the relay R.l 9 or the relay R-20, depending upon the polarity of the indication impulse and whichever of these two relays is energized effects the energization of the indicating relay associated with the operated select key so that the indicating lamps associated therewith indicate the proper position of the selected apparatus unit.

The energization of either of the relays R-l9 or R-20 in response to the indication impulse also effects the energization of either the relay P or the relay N to cause an indication check impulse of the same polarity as the indication impulse to be transmitted over the line conductors L-I, L-2 to the remote station. This indication check impulse effects the operation of either the relays R|9 and R'2l or the relays R'-20 and R2I to establish the necessary circuits at the remote station so that the selected apparatus unit can be operated by the dispatcher.

The dispatcher can now operate the selected apparatus unit by operating either the master close key MCK or the master trip key MTK. The operation of the master close key MCK effects the energization of the relay N so that a negative impulse is transmitted over the line conductors L-l and L-2 to the remote station where this negative impulse effects the energization of the relay R'23 to complete the necessary circuits to effect the closing operation of the selected apparatus unit. The operation of the master trip key MTK effects the energization of the relay P to cause a positive impulse to be transmitted over the line conductors LI and L2 to the remote station Where this positive impulse effects the energization of the relay R22 so as to complete the necessary circuits to effect the tripping operation of the selected apparatus unit. The operation of the selected apparatus unit deenergizes either relay RI9 or R--20, depending upon which is: energized, and thereby prepares the necessary circuit so that when relay R22, or R-23 is deenergized at the termination of the control impulse, a new indication impulse corresponding to the new position of the selected apparatus unit is sent over the line conductors L-I and L--2 to cause the indicating lamps associated with the operated select key to indicate the new position of the selected apparatus unit. Immediately after this new indication impulse is received at the dispatchers ofiice, the equipment thereat promptly sends back to the remote station an indication check impulse in the same manner as above described to energize either relay R,--I 0 or R-20.

The dispatcher may operate the selected apparatus unit as many times as desired, without releasing the selection, by operating the master operate keys MCK and MTK. After each operation of the apparatus unit an indication impulse is transmitted to operate the corresponding signalling lamps to indicate the new position of the selected apparatus unit and an indication check impulse is transmitted to operate either relay RI9 or R-20 to reestablish the proper connections at the remote station.

After the last operation of the selected apparatus unit is performed, the dispatcher may release the selection and restore the apparatus to normal merely by restoring the operated select key to its normal position. In resetting, the equipment at the dispatchers office sends a short impulse of a polarity corresponding to that of the last indication impulse received and this impulse eflects the necessary connections at the substation to reset the apparatus thereat.

After the substation equipment resets, it applies normal line current which in turn completes the final resetting of the dispatchers office equipment.

A detailed description of the operation of the system shown in the drawings is as follows: With the system at rest and in operative condition, the finder switches I-F and 2-H are stopped in their position 17, the code sender I-S is stopped in its position 0, the finder switch IF is stopped in its position 17, the finder switches 2-F and 5-F are stopped in their position 0 and the code sender I-S is stopped in its position 16. Under these conditions at the dispatchers ofiice, a circuit for the relay N-I is completed from the positive terminal of a suitable source of current such as the battery B, winding of relay NI, conductor I00, contact ll and wiper of bank I-F2, conductor IOI, Winding of operating magnet IFM to the negative terminal of battery B. The current in this circuit is sufiicient to operate the relay N-I but is not sufiicient to operate the magnet IFM. A circuit is also completed from the positive terminal of battery B through the winding of relay N2, conductor I02, contacts I1 and wiper of bank 2F2, conductor I03, winding of operating magnet 2FlV[ to the negative terminal of battery B. The current in this circuit is sufiicient to operate the relay N2 but is not sufficient to operate the magnet 2-FM. A circuit is also completed from the positive terminal of battery B through the winding of relay N3, conductor I04, contacts b of relay H, conductor I06, contact 0 and wiper of bank I-Sfl to the neutral terminal of battery B. Therefore, with the system at rest, the relays NI, N--2, and N3 are energized at the dispatchers ofiice.

At the remote station a circuit is completed from the positive terminal of a suitable source of current such as the battery B through the winding of relay N'I, contacts I? and wiper of bank IF'2, conductor 300, winding of operating magnet I-FM to the negative terminal of battery B. The current in this circuit is sufficient to operate relay N-I but not sufficient to operate magnet IF'M. A circuit is also completed from the positive terminal of battery B through the upper winding of the relay N'2, contacts a of relay N--2, conductor SM, and contacts I) of relay I to the neutral terminal of the battery to maintain the relay N-2 in its energized position. A circuit is also completed from the positive terminal of battery B through the upper winding of relay N'-5, contacts a of relay N'5, conductor 302, contacts I) of relay 4 to the neutral terminal of battery B so as to maintain the relay N-5 in its energized position. Since relays N --I N'2, and N--5 are all energized, thereby indicating that the switches I-F, 2-F, and 5-F are respectively in their normal positions, a circuit is completed for the relay N'O from the negative terminal of battery B through the contacts 0 of relay N'-2, conductor 303, contacts 0 of relay N'E, conductor 304, winding Of relay N'O', conductor 305, contacts a of relay N'I, conductor 306, contacts d of relay RL, conductor 400, contact I6 and wiper of bank I-S2 to the neutral terminal of battery B. A check circuit is also completed from the neutral terminal of battery B through contacts 0 of relay N'O', conductor 30?, contacts E6 and wiper of bank IS3, conductor 308, contacts b of relay N, line conductor L2, contacts I) of relay N, conductor I01, contacts 0 and wiper of bank IS0, conductor I08, contacts a of emergency reset key ERK, conductor I09, operating winding of polarized relay L, conductor H0, contacts I) of relay P, line conductor Ll, contacts b of relay P, conductor 309, operating winding of polarized relay L, conductor 3I0, contacts a of relay NO to the negative terminal of battery B. The current in this circuit is in the proper direction to cause the polarized relays L and L to close their respective contacts a. An energizing circuit is therefore completed from the neutral of battery B through the contacts a of the relay L, conductor l I I, contacts bof relay LP, conductor H2, operating winding of relay LN to the negative terminal of battery B. A similar energizing circuit is completed for the relay LP at the remote station from the neutral or battery B through contacts a of relay L, conductor 3H, winding of relay LP, conductor 3I2, contacts I) of relay LN to the positive terminal of battery B. Through its contact e, relay LP completes an energizing circuit for the relay RO' from the positive terminal of battery B through the contacts e of relay LP, conductor 3M, contacts b of relay RL, conductor 406, winding of relay RO to the negative terminal of battery B. The contacts a of the energized relay LN complete a circuit from the positive terminal of battery B through contacts d of relay RC, conductor II 3, contacts a of relay LN, conductor H4, contacts b of relay RL, conductor 200, winding of relay R0 to the negative terminal of battery B. Through the contacts 0 of the energized relay R0, a circuit is completed for the start light STL from the positive terminal of the battery through the start light STL, conductor H6, contacts 0 of the relay R0, conductor 20I, contacts d of relay RL, conductor 202, contacts h of relay C3, conductor II'I, contacts c of relay N-I, conductor II8, contacts 0 of relay N-2, conductor I I9, contacts c of relay N-3, conductor I20, contacts b of relay RC to the negative terminal of battery B. The lighting of the start lamp STL informs the operator that the equipment is at rest in its normal position.

At the remote station the relays D--2, D'--3, D'--4, D'5 are also energized. The circuit of the relay D2 includes the conductor 40I and the contacts j of relay R'3. The circuit of the relay D--3 includes the conductor 402 and the contacts h of the relay R3. The energizing circuit for the relay D'4 includes the conductor 403, contacts a of relay D-3, conductor 404, and the contacts a of relay D'-2. A locking circuit for the relay D'--4 is also completed through the contacts a of the relay D'-4 so that after it is once energized it remains energized as long as the voltage of the control source B remains above a predetermined value.

In order to describe the operation of the arrangement shown, it will be assumed that the apparatus unit AU-32 is open and that the dispatcher desires to close this apparatus unit. After first observing that the start lamp STL is lighted, the dispatcher then operates the select key SK-32, which is individual to the apparatus unit AU'--32, so as to close the contacts a and c of the select key. The closing of the contacts 0 of the select key SK--32 completes a circuit from the positive terminal of battery B through the contacts a of relay N-3, conductor I2I, contacts a of relay N2, conductor I22, contacts a of relay NI', conductor I23, contacts b of relay I, conductor I24, winding of relay 4, conductor I25, contacts 0 of select key SK-32, conductor I26, contacts at of relay C-I to the neutral of battery B. By closing its contacts a, relay 4 completes a locking circuit for itself from the positive terminal of battery B to conductor I23. By closing its contacts k, relay 4 completes a circuit from the neutral of battery B through contacts k of relay 4, conductor I 33, winding of relay H to the positive terminal of battery B. Relay H, by opening its contacts b, effects the deenergization of the relay N3, and by closing its contacts a, completes a locking circuit for itself through conductor I34 and contacts I of relay D. By closing its contacts e, relay 4 completes a circuit from the positive terminal of battery B through the contacts 6 of relay 4, conductor I21, contacts b of relay R3, conductor 203, contacts I1 and wiper of bank 2-FI, conductor I28, contacts b of magnet 2-FM, conductor I03, Winding of magnet 2-FM to the negative terminal of battery B. A similar circuit is connected from conductor 203 through contacts I1 and wiper of bank IFI, conductor I29, contacts b of magnet IFM, conductor IOI, winding of magnet I-FM to the negative terminal of battery B. Since the iull potential of battery B is now applied to the operating magnets I-F"M and 2FM, they are sufiiciently energized to open their respective contacts b and thereby effect the interruption of the circuits just described so that the switches I-F' and 2-F are moved from position 17 to position 18. Since all of the contacts in bank I-FI, except contact I1, and all of the contacts in bank 2FI, except contacts H, are connected through directly to the positive terminal of battery B, the magnets I--FM and 2--F'M are intermittently energized to move the switches I-F and 2-F to the position corresponding to the operated select key SK-32, which in the particular arrangement shown in the drawings is position 16. When the finder switch IFI reaches its position 16, a holding circuit is completed for the operating magnet I-FM from the negative terminal of battery B to the operating winding of the magnet IFM, conductor IOI, wiper and contact I6 of bank I-F2, conductor I29, contacts a of the operated select key SK32, conductor I30, contacts b of relay CI, conductor 204, contacts b of relay C-3, conductor I21, and contacts e of relay 4 to the positive terminal of battery B. This circuit maintains the magnet I--FM energized so as to stop the switch IF in its position 16. A similar circuit is completed for the operating magnet 2FM through the wiper and contacts I6 of switch 2--F'2 when the finder switch 2-H reaches its position 16.

In positions 1 to 16 of the switch I-F, a circuit is completed through the wiper of bank IF6, conductor I3I, contacts of relay RC, conductor 206, winding of relay SI to the neutral of battery B. Since adjacent contacts of the bank I'--F6 are connected to opposite terminals of the battery, the rapid reversals of current through the winding of relay S-I while the finder switch I--F is moving from position 1 to position 16 prevent the relay S-I from picking up during this operation. After the switch I-F stops in position 16 however, the relay S-I picks up. By closing its contacts a, relay S--I completes a starting circuit for the code sender IS from the positive terminal of battery B through the contacts b of the operating magnet I--SM, wiper and contact 0 of bank I-SI, conductor I32, contacts a of relay S-I', conductor 201, contacts I of relay RL, conductor 208, winding of operating magnet I--SM to the negative terminal of battery B.

By opening its contacts b, the magnet I--SM opens its own energizing circuit so that the magnet becomes deenergized and moves the code sender IS to its position 1. In positions 1, 2, and 3 of the code sender I-S, a notching circuit is completed for the magnet ISM through its contacts b, wiper of bank I-SI, conductor 20B, and winding of magnet I-SM so as to cause the code sender I--S to move to position 4. In positions 4-16 of sender I-S a circuit is completed for a relay T--I through contacts b of the magnet I'-SM and Wiper of bank I-SI. Relay T-I, by closing its contacts a, completes an energizing circuit for the magnet I-SM, which, in turn, by opening its contacts b, interrupts the energizing circuit of the relay TI. Therefore a notching circuit is completed for the magnet I-SM to move the switch IS from position 4 to position 17, and during this movement'the code sender effects the transmission, over the line conductors LI and L2, of the select code which has been set up by the energized group relay 4 and the position of the finder switch I--F. The polarity of the first two impulses of the select code is determined by the energized group relay and the next four impulses of the select code are determined by the position of the finder switch IF. Since the group relay 4 is energized and the finder switch IF is in its position 16 as a result of the operation of the select key SK--32, the following circuits are completed as the code sender IS moves from position 4 to position 16.

When the code sender reaches position 5, a circuit is completed for the relay N from the positive terminal of battery B through the winding of relay N, conductor I35, wiper and contact 5 of bank IS3, conductor I36, contacts g of relay 4 to the negative terminal of battery B. Relay N, by closing its contacts a, connects the negative terminal of battery B to the line conductor LI and by closing its contacts 0 connects the neutral of battery B to the line L-2 so that a negative impulse is transmitted over the line conductors LFI and L-2 to the remote station. When the code sender IS reaches position 7 a circuit is completed for the relay N from the positive terminal of battery B through the winding of relay N, conductor I35, wiper and contact 1 of bank IS3, conductor I31, contacts i of relay 4 to the negative terminal of battery B. Therefore, the relay N is again energized to efiect the transmission of another negative impulse to the remote station. When the code sender IS reaches position 9, another circuit is completed for the relay N to effect the transmission of another negative impulse to the remote station. This energizing circuit of relay N includes the conductor I35, wiper and contact 9 of bank IS3, conductor I38, and wiper and contact I5 of bank I--F3. When the code sender reaches position 11, another circuit is completed for the relay N through wiper and contact II of bank IS3, conductor I39, and wiper and contact I6 of bank IF4 so as to effeet the transmission of another negative impulse to the remote station. When the code sender IS reaches position 13, another circuit is completed for the relay N through the wiper and contact I3 of bank I--S3, conductor I40, and wiper and contact I6 of bank IF5, so that another negative impulse is transmitted to the remote station. When code sender IS reaches position 15, another energizing circuit is completed for relay N through the wiper and contact I5 of bank IS3, conductor I3I, and wiper and contact I5 of bank IFG so that the relay N is again energized to effect the transmission of another negative impulse to the remote station. Therefore, as a result of the operation of the code sender IS a series of six negative impulses is transmitted to the remote station to effect the selection of the apparatus unit AU-3Z,

As soon as the code sender IS leaves its position 0 the heretofore traced check circuit through the line conductors L-I and L-2 and the polarized relays L and L is opened by the wiper of bank ISB leaving its normal contact. The opening of this check circuit causes the relay L at the dispatchers oifice to open its contacts a and thereby efiect the deenergization of the relay LN. By opening its contacts a, the relay LN removes a short-circuit from around the winding of the relay RL so that this relay is energized in series with the relay R0. This series circuit is from the negative terminal of battery B through the winding R0, conductor 200, contacts a of relay R0, conductor 209, winding of relay RL, conductor 2I0, contacts I of relay D to the positive terminal of battery B.

At the remote station the opening of the normal check circuit causes the relay L to open its contacts a and thereby effect the deenergization of the relay L'P. By opening its contacts e, relay L'P removes a short-circuit from around the winding of the relay R'L so that this relay is energized in series with the winding of relay RO. This circuit is from the positive terminal of battery B through contacts h of relay DI conductor 401, winding of relay R'L, conductor 408, contacts e of relay RO', conductor 406, winding of relay RO to the negative terminal of battery B. By opening its contacts (1, relay R'L interrupts the heretofore traced circuit for the relay N'O'. By opening its contacts a and c and closing its contacts 12, relay NO changes the connections of the line conductors LI and L2 at the remote station so that the circuit of the polarized relay L is from the line conductor L-I through the contacts b of relay P, conductor 309, winding of relay L, conductor 3I0, contacts b of relay NO, conductor 301, wiper and contact I5 of bank IS'3, conductor 308, contacts 12 of relay N to line conductor L--2.

When the first impulse of the select code is received at the remote station, the negative impulse fiows through the winding of the relay L and causes this relay to close its contacts b, thereby completing an energizing circuit for the relay LN through conductor 3I5, contacts I) of relay LP, conductor 3H5, and winding of relay LN. By closing its contacts 6, relay LN completes an energizing circuit for relay R-2 from the positive terminal of battery B through the contacts e of relay LN', conductor 3I1, contacts (1 of relay R'--3, conductor 500, contacts 0 of relay RL, conductor 3I8, winding of relay R"2 to the negative terminal of battery B. When the first impulse is removed from the line conductors, the relays L and UN become deenergized so that the relay R3 is energized in series with the relay RZ. This series circuit is from the positive terminal of battery B through contacts h of relay DI, conductor 401, winding of relay R3, conductor 50!, contacts a of relay R.-2, conductor 3I8, winding of relay RZ to the negative terminal of battery B. The energization of the relay R3 transfers the connection so that the second impulse of the select code selectively controls the relays R4 and R5 instead of the relays RI and R-?..

Since the second impulse of the select code is also a negative impulse, it effects the energization of the relays L and L'N in the manner abovedescribed. By closing its contacts e, the relay LN now completes a circuit through conductor 3I1, contacts 0 of relay R-3, conductor 502, contacts 1) of relay R--6, conductor 503, winding of relay R5 to the negative terminal of the battery. When this second impulse is removed from the line wires, a series circuit is completed for the relays R5 and R'-6 from the positive terminal of battery B through contacts h of relay D--I, conductor 401, winding of relay RB, conductor 504, contacts a of relay R--5, conductor 503, winding of relay R5 to the negative terminal of battery B. The energization of the relay RIi in series with the relay R'-5 transfers the connections so that the third impulse of the select code selectively controls the relays R1 and R8.

Since the third impulse is a negative impulse, the relays L and UN are again energized and the relay LN', by closing its contacts e, completes an energizing circuit for the relay R8 through the conductor 3H, contacts b of relay R9, conductor 585, contacts b of R-5, conductor 50B, and winding of relay R-8. When the third impulse is removed from the line con.- ductors, a series circuit is completed through the winding of relays R.8 and R-9 from the positive terminal of battery B through contacts h of relay D-l, conductor Mil, winding of relay R-9, conductor 587, contacts a of relay R-3, conductor 506, winding of relay R-8 to the negative terminal of battery B. The energization of the relay R-9 transfers the connections so that the fourth impulse of the select code selectively controls the relays R-lll and R'--I I.

Since the fourth impulse of the select code in a negative impulse, the relays L and LN are again energized and relay LN, by closing its contacts 6, completes an energizing circuit for the relay RH through conductor 3H, contacts a of relay R-9, conductor 551B, contacts I) of relay R-l2, conductor 509, and winding of relay R--ll. When the fourth impulse is removed from the line conductors, a series energizing circuit is completed through the windings of relays R--Il and R--l2 from the positive terminal of battery B through contacts h of relay D--I, conductor 401, winding of relay EU-l2, conductor 51!), contacts a of relay R'-l l, conductor 509, winding of relay RX-il to the negative terminal of battery B. The energization of the relay R-I2 transfers the connection so that the fifth impulse of the select code selectively controls the relays R-l3 and R-l l.

Since the fifth impulse of the select code is a negative impulse, the relays L and LN' are again energized and relay LN, by closing its contacts e, completes an energizing circuit for the relay R-l4 through conductor 3H, contacts a of relay R-l2, conductor 5, contacts 01 of relay R--l5, conductor M2, and winding of relay R'-l4. When the fifth impulse is removed from the line conductors a series energizing circuit is completed for the windings of relays R-Hl and R-l5 from the positive terminal of battery B through the contacts h of relay D-l, conductor 401, winding of relay R-l5, conductor 5H3, contacts a of relay Rl4, conductor M2, winding of relay R-l4 to the negative terminal of battery B. The energization of the relay R-l5 transfers the connections so that the sixth impulse of the select code selectively controls the relays RIB and R-ll.

Since the sixth impulse of the select code is also a negative impulse, the relays L and LN are again energized and the relay LN, by closing its contacts 6, completes an energizing circuit for the relay Rll through conductor 5H, contacts I) of relay R'l8, conductor 5H3, contacts a of relay Rl5, conductor EIS, and winding of relay R--ll. When the sixth impulse is removed from the line conductors, a series energizing circuit is completed for the winding of relays R,ll and R,--l8 from the positive terminal of battery B through contacts 71. of relay Dl, conductor cs1, winding of relay Rl8, conductor 5N5, contacts a of relay R,-I'I, conductor 5H), winding of relay R-l1 to the negative terminal of the battery.

Therefore, as a result of the select code, relays R2, R--3, R-5, R-6, R.8, R, R'--l i, R.-I2, R-Hl, R,'-l5, R-'l, and R'-l8 are energized. When the relay R3 is energized in response to the removal of the first impulse of the select code, a circuit is completed for the relay C3 from the positive terminal of battery B through the winding of the relay C-3, conductor M2, contacts h of relay S-l, conductor 324, contacts e of relay R-3, conductor SIB, contacts 1 of relay D-l to the neutral terminal of battery B. By closing its contacts 6, relay C--3 completes a locking circuit for itself.

As a result of the energization of relays R-2 and R'--5, an energizing circuit is completed for the group relay 4 and the relay 5 from the positive terminal of battery B through the winding of relay 5, conductor 3%, contacts 12 of relay D'--l, conductor 469, contacts h of relay I, conductor 321, winding of relay 4, conductor 322, contacts 0 of relay R-5, conductor 5, contacts c of relay R'2, conductor 4! I, contacts a of relay C3, conductor 304, contacts 0 of relay Nli, conductor 303, contacts 0 of relay N-2 to the negative terminal of battery B. By closing its contacts a, relay 5 completes a locking circuit for the relays 4 and 5 by connecting the conductor Ml to the negative terminal of battery B. By opening its contacts I), the relay 4 interrupts the heretofore described holding circuit for the relay N'-5 so that this relay becomes deenergized.

When relay R3 becomes energized, the opening of its contacts 9' interrupts the heretofore described circuit for relay D2 and the opening of its contacts h interrupts the heretofore described circuit for relay D-3.

During the receipt of the select code, however, the slow-to-operate relays D--2 and D--3 remain in their energized positions if the select impulses are received correctly. During the time that the select impulses are removed from the line conductors so that relays N, P, LN, and LP, are simultaneously deenergized, an energizing circuit is completed for relay D'-Z from conductor 49! through contacts 11 of relay N, conductor 36!, contacts 0. of relay P, conductor 362, contacts 1 of relay LN, conductor 363, contacts 1 of relay LP to the neutral of battery B. The length of the time that a select impulse is being transmitted is not long enough normally to allow the relay D-2 to return to its normal position. When the relay R-IB is energized at the termination of the sixth impulse, its contacts it connect the conductor Mil to the neutral of battery B, thereby maintaining the relay D--2 energized as long as the relay R--l8 remains energized.

During the time that each select impulse is being transmitted, a circuit is completed for relay D3 from conductor 402 to the neutral of battery B through contacts 0 of relay LN if the select impulse is negative and through contacts 0 of relay LP if the select impulse is positive. The length of time between successive select impulses is not long enough normally to allow the relay D-3 to return to its normal position. When the relay R--l8 is energized at the termination of the select code, its contacts 1' connect the conductor 402 to the neutral of battery B, thereby maintaining the relay D--3 energized as long as the relay R-I8 remains energized.

If for any reason the select code is not properly received at the remote station, either the relay D2 or D3 will drop out and will effect, in a manner hereinafter described, a reset of the equipment.

Since the relays R.--8, R-|l, R-l4, and R-H are energized by the select code, a circuit is completed from the positive terminal of battery B through contacts i of relay 4, conductor 325, contacts 0 of relay R8, conductor 520, contacts e of relay R||, conductor 52l, contacts c of relay R-l4, conductor 522, contacts c of relay R--|1, conductor 523 to contact l6 of bank 5--Fl and to contact l6 of bank I-FZ.

When relay R-|8 becomes energized at the termination of the last impulse of the select code, a circuit is completed from the positive terminal of battery B, winding of relay C-l, conductor 458, contacts 9 of relay R'-l8, conductor 5|B, contacts f of relay D| to the neutral of battery B. By closing its contacts a, relay C'l| completes a circuit from the neutral of battery B through contacts a of relay C'-|, conductor 459, contacts (1 of relay D--I, conductor 4B0, winding of relay C2 to the positive terminal of battery B.

By closing its contacts 6, relay Rl8 completes a circuit from the positive terminal of battery B through contacts 6 of relay R.'l8, conductor 524, contacts I) of relay C-4, conductor M3, contacts e of relay N2, conductor 365, contacts d of relay N-5, conductor 326, contacts b of magnet 5-FM, conductor 321, winding of magnet 5-FM' to the negative terminal of battery B. Since the contacts I) of the mag net 5-F'M are in this circuit, the magnet is intermittently energized and deenergized to' move the finder switch 5F from its normal position to position 16, in which position a holding circuit for magnet 5-FM is completed through the wiper and contact l6 of bank 5F'l to conductor 523 which, as previously described, is connected to the positive terminal of battery B through the series connected contacts of relays R'8, R'll, R--M, and R'I1.

The closing of the contacts 6 of the relay Rl8 also completes a circuit from the positive terminal of battery B through contacts e of relay R-l8, conductor 524, contacts of relay conductor 329, wiper and contact I1 of bank |-F"l, conductor 330, contacts I) of magnet I-F'M, conductor 300, winding of magnet l-FM to the negative terminal of battery B. Since the contacts b of the magnet |FM are in this circuit, the magnet l--FM is intermittently energized and deenergized to move the finder switch |F from position 1'7 to its zero position and then to its position 16, in which position a holding circuit is completed for the magnet l-FM through conductor 300, wiper and contact l6 of bank I-F2 to conductor 523, which, as previously described, is connected to the positive terminal of battery B through the series connected contacts of the energized relays R8, Rl l, R-I4, and Rl1.

While the finder switch l-F is moving from position 1 to position 16, a circuit is completed for the relay S| from the positive terminal of battery B through the wiper and contacts I, 3, 5, l, 9, H, l3, and E5 of bank |F6, conductor 33!, winding of relay Sl to the neutral terminal of battery B and from the negative terminal of battery B through the wiper and contacts 2, 4, 6, 8, l0, l2, l4, and I6, conductor 33l, and winding of relay S-I to the neutral of battery B, Due to the rapidity at which the finder switch l-F' operates, the relay S-l does not operate until the switch stops in its position 16. By closing its contacts 9, relay S--l completes a circuit from the neutral of battery B through the contacts g of relay S-I, conductor 332, contacts l6 and wiper of bank lS-l, conductor 333, and contacts I) of magnet I-SM, conductor 334, winding of relay T'-| to positive terminal of battery B. Relay T-l, by closing its contacts a, completes an energizing circuit for the operating magnet l-SM', which in turn, by opening its contacts b, interrupts the circuit of relay T- l. Therefore, a notching circuit is completed for the magnet I-SM to move the code sender l-S from its normal position 16 to its position 17. Since the contacts l1 to 24, inclusive, of bank l-Sl are connected directly to the neutral terminal of battery B, a notching circuit is completed for the operating magnet l-SM to move the code sender from position 17 to position 0. When the code sender IS reaches position 0, a circuit is completed for the relay T- l through the wiper and contact 0 of bank l-S|, conductor 335, and contacts 112 of relay S-I to energize again the relay T-l and thereby complete a circuit for the magnet ISM' so that the code sender I-S' is moved from position zero to position 1. Since the contacts i to l3, inclusive, of the bank I-Sl are connected to the neutral terminal of battery B, a notching circuit is immediately completed for the operating magnet I-SM' to move the code sender l--S' from position 1 to position 14.

As the code sender l-S moves from position 1 to position 14, it effects the transmission over the line conductors L-l and L-2 of the check code which has been set up by the energized group relay 4 and the position of the finder switch IF. In the arrangement shown, the check and select codes are identical so that the check code for the apparatus unit AU-32 consists of six negative impulses.

When the code sender I-S is in position 2, a circuit is completed for the relay N from the positive terminal of battery B through the winding of the relay N, conductor 336, contacts a of relay S-|, conductor 331, wiper and contact 2 of bank IS"6, conductor 338, contacts a of relay 4 to the negative terminal of battery B. Relay N, by closing its contacts a, connects the neutral of battery B to the line conductor I.r2 and by closing its contacts 0 connects the negative terminal of battery B to the line conductor L so that a negative impulse is transmitted over the line conductors while the relay N is energized.

In position 4 of the code sender l-S, a circuit is completed for the relay N through conductor 336, contacts a of relay S--l, conductor 337, wiper and contact 4 of bank l-SG, conductor 339, and contacts 0 of relay 4 so that another negative impulse is transmitted over the line conductors.

In position 6 of the code sender |S', another circuit is completed for the relay N through the wiper and contacts 6 of bank l-S6, conductor 340, wiper and contact l6 of bank l-F3.

In position 8 of code sender i-S', another circuit is completed for the relay N through wiper and contact 8 of bank l-S6, conductor 34!, wiper and contact I 6 of bank I-F4.

In position 10 of the code sender l-S, another circuit is completed for the relay N through the wiper and contact In of bank IS6, conductor 342, wiper and contact N5 of bank IF5.

In position 12 of the code sender IS, another circuit is completed for the relay N through the wiper and contact I2 of bank |S6, conductor 33l, wiper and contact [6 of bank When the code sender l-S reaches position 14, another impulse is transmitted over the line conductor L-I and L2 of a character correspending to the position of the selected apparatus unit. When the relay S--I becomes energized in response to the stopping of finder switch I-F', it completes a circuit for either the relay IT' or the relay I'C', depending upon the position of the selected apparatus unit. Since in the arrangement shown in the drawings, the apparatus unit AU32 is assumed to be open, a circuit is completed by the relay S'! for the relay I'T' from the negative terminal of battery B through winding of relay IT', conductor M5, contacts b of relay IC', conductor 4I6, contacts e of relay S'-l conductor 343, wiper and contacts l6 of bank 5-F5, conductor 344, contacts I) of the apparatus unit AU-32, conductor 352, contacts (1 of relay SC to the positive terminal of battery B. Therefore, when the code sender I-S reaches its position 14, a circuit is completed from the negative terminal of battery B through the winding of the relay P, conductor 344, Wiper and contacts l4 of bank l-S'5, conductor 345, contacts a of relay IT', conductor 4, contacts (1 of relay IC', conductor 4i 8, contacts b of relay S2, conductor H9, contacts of relays C'2 and C3 in parallel, conductor 420, contacts at of relay LP', conductor 346, contacts 11 of relay LN, conductor 341, Wiper and contact l4 of bank l-S2 to the neutral of battery B. Relay P, by closing its contacts a, connects the neutral of battery B to the line conductor L-Z and by closing its contacts 0 connects the positive terminal of battery B to the line conductor L-I so that a positive indication impulse is transmitted to the dispatchers office, thereby indicating that the selected apparatus AU-32 is in its open position.

When the code sender l-S' reaches its position 14 a circuit is also completed from the negative terminal of battery B through contacts 0 of relay IT', conductor 422, winding of relay S'-3, to conductor 4l9, which is connected to the neutral terminal of the battery, in the manner just described. After being energized for a predetermined length of time relay S-3 closes its contacts a and completes through contacts 0 of relay IT and conductor 422 an energizing circuit for a time relay S'2 which, after being energized for a predetermined time, opens at its contacts b the heretofore described circuit for the relay P so as to remove the indication impulse from the line wires. By closing its contacts a, relay S 2 connects the conductor 34'! to the conductor 420, thereby completing a shunt circuit around the contacts at of the relays UP and L'N.

Each of the negative check impulses gfiows through the polarized relay L at the dispatchers ofiice from line conductor L2 through contacts I) of relay N, conductor I07, wiper and contact ll of bank l-S6, conductor I08, contacts aof emergency reset key ERK, conductor H19, winding of polarized relay L, conductor H0, contacts I) of relay P to the line conductor L-l. The current through the winding of relay L is in such a direction as to cause the relay to close its contacts a and thereby complete the heretofore described energizing circuit for the relay LN.

When relay LN is energized in response to the first impulse of the check code, a circuit is completed from the positive terminal of battery B through contacts d of relay RC, conductor H3, contacts: a, of relay LN, conductor H4, contacts 0 of relay RL, conductor M2, contacts b of relay R-3, conductor 2! i winding of relay R-2 to the negative terminal of battery B. When the first impulse of the check code is removed from the line conductors so that relays L and LN are deenergized, a series energizing circuit is completed for the relays R-2 and R3 from the positive terminal of battery B through contacts 1 of relay D, conductor Zlfl, Winding of relay R-3, conductor 2l2, contacts a of relay R-2, conductor 2, Winding of relay R-2 to the negative terminal of battery B. The energization of relay R3 transfers the connections so that the second impulse of the check code controls the energization of either the relay R-4 or the relay R--5.

When the second impulse of the check code effects the energization of the relays L and LN, a circuit is completed from the positive terminal of battery B through contacts at of relay RC, conductor H3, contacts a of relay LN, conductor H4, contacts 0 of relay R--3, conductor 2 l3, contacts b of relay R6, conductor 2M, winding of relay R5 to the negative terminal of battery B. When the second impulse is removed from the line conductors so that the relays L and LN become deenergized, a series energizing circuit is completed for the windings of relays R--5 and R6 from the positive terminal of battery B through contacts 1 of relay D, conductor 2m, winding of relay RPS, conductor 2| 5, contacts a of relay R-5, conductor 2 l4, winding of relay R5 to the negative terminal of battery B. The energization of relay R6 transfers the connections so that the third impulse of the check code effects the energization of either the relay R-l or the relay R8.

When the third impulse of the check code effects the energization of the relays L and LN, a circuit is completed from the positive terminal of battery B through the contacts 11 of relay RC, conductor H3, contacts a. of relay LN, conductor I I4, contacts 01 of relay R9, conductor 2H5, contacts c of relay R6, conductor 2, winding of relay RB to the negative terminal of battery B. When the third impulse is removed from the line conductors so that the relays L and LN are deenergized a series energizing circuit is completed through the windings o-f relays R--8 and RP-S from the positive terminal of battery B through contact I of relay D, conductor 2 l 0, winding of relay R-B, conductor 2| 8, contacts a of relay R-8, conductor 2 l1, winding of relay R8 to the negative terminal of battery B. The energization of the relay R9 transfers the connections so that the fourth impulse of the check code effects the energization of the relay R--lll or R-l I.

When the fourth impulse of the check code effects the energization of the relays L and LN, a circuit is completed from the positive terminal of battery B through contacts d of relay RC, conductor l l3, contacts a of relay LN, conductor I I4, contacts 0 of relay R-9, conductor 2l9, contacts b of relay R-IZ, conductor 220, winding of relay R-ll to the negative terminal of battery B. When the fourth impulse of the check code is removed from the line conductors, a series energizing circuit is completed for the windings of relay'R-Jl and R|2 from the positive terminal of the battery through contacts I of relay D, conductor 2l0, winding of relay R-IZ, conductor 22!, contacts 6 of relay RI l, conductor 220, winding of relay R--ll to the negative terminal of battery B. The energization of the relay R-l2 transfers the connections so that the fifth impulse of the check code effects the energization of the relay R-IS or the relay R-l4.

When the fifth impulse of the check code effects the energization of the relays L and LN,

a circuit is completed from the positive terminal of battery B through contacts 01 of relay RC, conductor II3, contacts a of relay LN, conductor II4, contacts a of relay R-I2, conductor 222, contacts I) of relay R,I 5, conductor 223, winding of relay R-I4 to the negative terminal of battery B. When the fifth impulse of the check code is removed from the line conductors so that the relays L and LN become deenergized a series energizing circuit is completed for the windings of relays R,I4 and R-I5 from the positive terminal of battery B through contacts I of relay D, conductor 2I0, winding of relay R,I5, conductor 224, contacts 2' of relay R-I4, conductor 223, winding of relay R-I4 to the negative terminal of battery B. The energization of the relay R,I5 transfers the connections so that the sixth and last impulse of the check code efiects the energization of the relay R-I6 or the relay R-I1.

When the sixth impulse of the check code effects the energization of the relays L and LN, a'circuit is completed from the positive terminal of battery B through contacts (1 of relay RC, conductor I I3, contacts a of relay LN, conductor II4, contacts b of relay R-I8, conductor 225, contacts a of relay R,I5, conductor 226, winding of relay R-I 1 to the negative terminal of battery B. When the sixth impulse is removed from the line conductors so that the relays L and LN are deenergized a series energizing circuit is completed through the windings of the relays R'I1 and R-IB from the positive terminal of battery B through contacts I of relay D, conductor 2ID, winding of relay RI8, conductor 221, contacts a of relay R,I1, conductor 226, winding of relay R,I 1 to the negative terminal of battery B. The energization of the relay Rr-IB transfers the connections so that the indication impulse effects the energization of either the relay Rr-I9 or the relay Ri -20.

If the select and check codes agree, a secondary holding circuit is completed for the relay 4 by the relays R2 and R-5 and a secondary holding circuit is completed for the operating magnets I-FM and 2--FM through contacts of the energized relays R8, RII, R,I4, and R-I1. The secondary holding circuit for the relay 4 is from positive terminal of battery B through contacts a of relay 4, conductor I23, contacts b of relay I, conductor I24, winding of relay 4, conductor I25, contacts 0 of relay R5, conductor 228, contacts 0 of relay Rr-Z, conductor 229, contacts b of relay S2 to the neutral of battery B. The secondary holding circuit for the magnet IFlVI is from the negative terminal of battery B through winding of the magnet I--FM, conductor IIII, wiper and contact I6 of bank IF2, conductor I29, contacts 1 of relay R-I1, conductor 230, contacts a of relay R-I4, conductor 23I, contacts a of relay R I I, conductor 232, contacts 0 of relay R.8, conductor I21, contacts 6 of relay 4 to the positive terminal of battery B. A similar secondary holding circuit is completed for the magnet 2FM from the negative terminal of battery B through the winding of the magnet 2FM, conductor I03, wiper and contact I6 of bank 2F2 to conductor I29, which is connected to the positive terminal of battery B in the manner above described.

When the relay R--I 8 becomes energized, when the last impulse of the check code is removed from the line conductors L-I and L2, a circuit is completed from the neutral of battery B through contacts 0 of relay Rr'l8, conductor 233,

winding of relay CI to the negative terminal of battery B. Relay C--I, by opening its contacts d, interrupts the original holding circuit for the relay 4 so that if the secondary holding circuit for this relay has not been completed by the energization of the relays R2 and R5, relay 4 becomes deenergized. By opening its contacts b, relay CI interrupts the original holding circuits for the magnets I-FM and 2-FM so that if the secondary holding circuits for these magnets have not been completed in response to the transmission of the proper check code, these magnets are deenergized to effect the movement of their respective switches to their next position, so as to effect in a manner hereinafter described a release of the selection. If the check code agrees with the select code, the secondary holding circuits heretofore described maintain the magnets I -FM, 2FM, and the relay 4 energized after the relay CI operates and the time relay C-2 operates to close its contacts and thereby reestablish the original holding circuits for the magnets I-FM, 2FM, and the group relay 4. The energizing circuit for the relay C-2 is from the positive terminal of battery B through the winding of the relay C-2, conductor 235, contacts b of relay D, conductor 236, contacts 0 of relay CI to the neutral of battery B. Relay C-2, by closing its contacts 0, completes a shunt circuit around the contacts I) of relay C--I in the original holding circuits for the magnets I-FM and 2FM and by closing its contacts e completes a shunt circuit around the contacts d of the relay CI in the original holding circuit for the relay 4.

When the indication impulse which follows the check code is a positive impulse, it causes the polarized relay L at the dispatchers ofiice to close its contacts I; and thereby complete an energizing circuit for the relay LP from the negative terminal of battery B through the Winding of the relay LP, conductor I44, contacts b of relay LN, conductor I45, contacts I) of relay L to the neutral of battery B. By closing its contacts a, relay LP completes a circuit from the positive terminal of battery B through the contacts d of relay RC, conductor II3, contacts a of relay LP, conductor I46, contacts a of relay R-I8, conductor 231, winding of relay RI9, to the neutral of battery B. By closing its contacts g, relay R-I9 completes a locking circuit for itself from the neutral of battery B through the winding of the relay R-I9, conductor 231, contacts g of relay lit-I9, conductor 242, contacts d of relay LN, conductor I50, contacts d of relay S3 to the positive terminal of battery B. By closing its contacts a, relay RI9 completes a circuit from the positive terminal of battery B through contacts a of relay R,I9, conductor 238, contacts g of relay C2, conductor 239, contacts h of relay D, conductor 240, contacts 0 of relay 4, conductor I48, wiper and contact I6 of bank 2F4, conductor I49, winding of relay IR-32 to the neutral of battery B and also from the conductor I49 through the amber lamp AM-32 to the neutral of battery B. The current through the winding of the relay IR32 is in the proper direction to cause the relay to close its contacts a, if they are not already closed, and thereby effect the lighting of the green lamp G32 to indicate that the apparatus unit AU32 is in its open position. The lighting of the amber lamp AM32 informs the dispatcher that the apparatus unit AU-32 has been selected and may be operated by operating the master control keys MCK and MTK.

Upon the removal of the indication impulse, the equipment operates to transmit back immediately to the remote station a long indication check impulse of the same polarity as the indication impulse. As soon as the relay LP becomes deenergized upon the removal of the indication impulse, a circuit is completed for the relay P from the negative terminal of battery B through the winding of the relay P, conductor I5I, wiper and contact I1 of bank IS2, conductor I52, contacts I of relay S--2, conductor 244, contacts of relay RI 9, conductor 245, contacts 01 of relay 0-3, conductor 246, contacts a of relay LN, conductor I54, contacts g of relay LP, conductor I55, contacts a of relay C2, conductor 241, wiper and contact I1 of bank I--S4 to the neutral of battery B. Relay P, by closing its contacts a, connects the positive terminal of battery B to the line conductor Ll and by closing its contacts c connects the neutral of battery B to the line conductor L2 so that a positive impulse is transmitted over the line conductors to the remote station. At the same time the relay P is energized and a circuit is completed for the time relay 8-4 from the positive terminal of battery B through contacts i of relay RI9, conductor 24B, winding of relay S4, conductor 246, contacts g of relay LN, conductor I54, contacts g of relay LP, conductor I55, contacts a of relay C--2, conductor 241, wiper and contact I1 of bank I-S4 to the neutral of battery B. After being energized for a predetermined time, relay S-4 closes its contacts a to complete a circuit from the positive terminal of battery B through contacts 1': of relay RI9, conductor 24B, winding of relay S2, conductor 249, contacts c of relay S4 t0 the neutral of battery ,3 After being energized for a predetermined length of time, relay S-2 opens its contacts 1 in the heretofore traced circuit for the relay P so as to remove the indication check impulse from the line conductors. Relays S2 and S4 remain energized however until either relay LP or LN is again energized.

At the remote station the indication check impulse energizes the relay L so that it closes its contacts a and completes the energizing circuit for the relay L'P. By closing its contacts 6, relay L'P completes a circuit from the positive terminal of battery B through contacts e of relay L'P, conductor 3I4, contacts 0 of relay R--I8, conductor 526, contacts (1 of relay C--5, conductor 424, contacts b of relay R'2I, conductor 425, winding of relay RI9 to the negative terminal of battery B. When the indication check impulse is removed from the line conductors, a series energizing circuit is completed for the windings of the relays RI9 and R--2I from the positive terminal of battery B through the contacts h of the relay DI, conductor 401, contacts g of relay I'T, conductor 426, winding of relay R--2I, conductor 421, contacts a of relay R'-I9, conductor 425, winding of relay R-I9 to the negative terminal of battery B. The energization of relay R2'I prepares the circuits for the trip relay R-22 and the closing relay R23 so that they are completed when the dispatcher transmits either a tripping or a closing impulse over the line conductors.

Relay R-I9, by closing its contacts g, completes a circuit from the neutral of battery B through contacts 9 of relay RI9, conductor 429, contacts 6 of relay I'T, conductor 430,

winding of time delay relay O-4 to the positive terminal of battery B. If the indication check impulse agrees in polarity with the indication impulse, which is indicated by the simultaneous energization of relays RI9 and IT or of relays R'2Il and I'C, and the indication check impulse is sufiiciently long, the time delay relay C"-4 opens its contacts at before the relay R2I is energized upon the removal of the indication check impulse from the line conductors. If for any reason the relay C4 does not open its contacts d before the relay R2I becomes energized a circuit is completed for the reset relay D'--I from the positive terminal of battery B through the winding of the relay D-I, conductor 43I, contacts 0 of relay D--4, conductor 432, contacts 01 of relay C'4, conductor 433, contacts a of relay R'2I to the neutral of battery B. The energization of the relay DI resets the equipment to its normal position in a manner which will be hereinafter described. The length of the indication check impulse depends upon the operating time of the time delay relays S2 and 8-4 in the dispatchers office and the operating times of these relays is normally set so that the indication check impulse is of sufiicient duration to allow the relay C-4 to pick up before the relay R'-2I is energized, in case the polarities of the indication impulse and the indication check impulse agree.

After the amber light ANT-32 is lighted, the dispatcher moves the check key DK-32 to its opposite position, thereby connecting the conductor I65 to the negative terminal of battery B so as to cause the white lamp W32 to light. Then the dispatcher operates the master closing key MCK so as to close its contacts. A circuit is then completed for the relay N from the positive terminal of battery B through the winding of the relay N, conductor I35, wiper and contact I1 of bank I--S3, conductor I51, contacts of the key MCK, conductor 245, contacts at of relay C--3, conductor 246, contacts 9 of relay LN, conductor I54, contacts g of relay LP, conductor I55, contacts a of relay C2, conductor 241, wiper and contacts I1 of bank I-S4 to the neutral of battery B. The energization of the relay N causes a negative control impulse to be transmitted over the line conductors LI and L2 and this control impulse flows as long as the dispatcher maintains the contacts of the key MCK closed.

At the remote station this negative control impulse operates the polarized relay L and the relay L'N. By closing its contacts 6, relay LN completes a circuit from the positive terminal of battery B through the contacts e of the relay LN', conductor 3", contacts 6 of relay R'-2I, conductor 434, winding of relay R'23, conductor 435, contacts 0 of relay C'4, conductor 436, contacts d of relay R-24 to the negative terminal of battery B. By closing its contacts 0, relay R'23 completes a circuit from the neutral of battery B through the contacts 0 of relay R'23, conductor 431, contacts b of relay R24, conductor 454, winding of relay C-6 to the positive terminal of battery B. The control impulse must be long enough to allow the time delay relay C'6 to operate. By closing its contacts 0, relay C"6 completes a circuit from the negative terminal of battery B through the contacts 0 of relay C6, conductor 438, contacts a of relay R'-23, conductor 439, contacts 7' of relay SI, conductor 349, contacts h of relay 4, conductor 250, wiper and contacts I of bank 5F3, conductor 25I, closing coil CC'-32 to the positive terminal of the battery. The energization of the closing coil CC-32 closes the apparatus unit AU-32, in which position it is held by any suitable means, such as the latch L'-32. Preferably the apparatus unit AU32 is provided with a suitable trip free arrangement TR'-32, examples of which are Well known in the art whereby the unit may open while the closing coil CC32 is still energized.

As soon as the relay C'6 closes its contacts e, a circuit is completed from the neutral of battery B through the winding of relay C--5, conductor 446, contacts e of relay C6, conductor 44I, contacts a of relay LN' to the positive terminal of battery B. By closing its contacts a, relay C--5 completes a locking circuit for itself around the contacts e of the relay C'6. Therefore, after the relay C6 has operated, the relay C5 remains energized thereafter until the control impulse is removed from the line conductors and thereby effects the deenergization of the relay LN'. The relay C5, when energized, opens at its contacts at and b respectively the original energizing circuits for the relays R'I9 and R'26 so that neither of these relays RI9 and R20 can be reenergized as long as a control impulse continues to be transmitted over the line conductors after the relay C'5 is energized.

When the apparatus unit AU--32 moves to its closed position, it opens its auxiliary contacts b and closes its auxiliary contacts a, thereby disconnecting the conductor 344 from the positive terminal of the battery and connecting it to the negative terminal of the battery through conductor 35I, and contacts b of relay SC. Since the opening of the auxiliary contacts b of the apparatus unit AU'32 interrupts the locking circuit for the associated indication relay IA-32, which includes conductor 355 and contacts a of the relay IA'-32, this relay becomes deenergized. The opening of the auxiliary contacts b of apparatus unit AU32 also interrupts the heretofore described circuit for relay I'T'.

By opening its contacts 9, relay IT' interrupts the heretofore described series energizing circuit for the winding of the relays RI9 and R-2I so that these relays become deenergized. The deenergization of R-2I in turn effects the deenergization of relays R23 and C-6 and closing coil CC32 although the control impulse has not been removed from the line conductors L--I and L-Z. By opening its contacts e, the relay IT interrupts the heretofore described circuit of the relay C-4 so that this relay becomes deenergized, and cannot be energized again until an indication of the new position of apparatus unit AU32 has been sent to the dispatchers office and the correct indication check impulse has been received at the remote station. By closing its contacts (1 relay IT completes an energizing circuit for the relay I'C from the positive terminal of battery B through the winding of the relay IC, conductor 442, contacts d of relay IT, conductor 443, contacts 0 of relay S'I, conductor 343, wiper and contacts I6 of bank 5F5, conductor 344, contacts a of apparatus unit AU32, conductor 35I, contacts b of relay SC, to the negative terminal of battery B. By closing its contacts 0, relay IC" reverses the potential applied to the conductor 422 and thereby reverses the current through the coil of time relay S'3 so that this relay becomes deenergized and in turn opens the circuit of time relay S'2.

The indication of the new position of the breaker cannot be sent back to the dispatchers ofiice until the control impulse has been removed from the line conductors by the dispatchers opening the contacts of the control key MCK. When the control impulse is removed from the line conductors the relay LN' becomes deenergized and by opening its contacts a, interrupts the heretofore described holding circuit for relay C5, also the deenergization of relay LN completes a circuit for relay N from the positive terminal of battery B, through the winding of the relay N, conductor 336, contacts a of relay SI, conductor 331, wiper and contact I4 of bank I-S6, conductor 353, contacts a of relay IC, conductor 444, contacts b of relay IT, conductor 4I8, contacts I; of relay S'Z, conductor 4I9, contacts 0 of relay C3, and relay C--2 in parallel, conductor 420, contacts at of relay LP', conductor 346, contacts (1 of relay L'N', conductor 341, wiper and contact I4 of bank I--S2 to the neutral of battery B. The energization of the relay N' causes a negative indication impulse to be transmitted over the line conductors to indicate that the apparatus unit AU32 is in its closed position. At the same time the relay N is energized, a circuit is completed from the positive terminal of battery B through the contacts a of the relay IC, conductor 422, winding of relay S'3, to conductor 4I9, which is connected to the neutral of battery B in the manner above described. After being energized for a predetermined length of time, relay S'3 closes its contacts a and thereby completes through contacts 0 of relay IC an energizing circuit for the relay SZ, which, after being energized for a predetermined time, opens its contacts 1), effects the removal of the indication impulse from the line conductors and closes its contacts a to complete a holding circuit for the relay S'3.

At the dispatchers ofiice, the negative indication impulse effects the energization of the relays L and LN. By opening its contacts d, relay LN interrupts the heretofore described holding circuit for the relay R-IQ so that this relay becomes deenergized. By closing its contacts a, relay LN completes a circuit for the relay R2El from the negative terminal of battery B through the winding of the relay R2EI, conductor 25I, contacts e of relay R-I8, conductor II 4, contacts a of relay LN, conductor II3, contacts (2 of relay RC to the positive terminal of battery B. By closing its contacts g, relay R26 completes a locking circuit for itself from the negative terminal of battery B through the Winding of the relay R20, conductor 25I, contacts g of relay R26, conductor 252, contacts d of relay LP, conductor I56, contacts 11 of relay S3 to the positive terminal of battery B. By closing its contacts a, relay R26 connects the conductor 238 to the negative terminal of battery B, thereby reversing the direction of current flow through the winding of the polarized relay IR-32. This reversal of current causes the relay IR32 to open its contacts a and close its contacts b, thereby reversing the potential applied to the conductor I66 so that the white lamp W-32 and the green lamp G32 are extinguished and the red lamp R32 is lighted to indicate to the dispatcher that the apparatus unit AU-32 is in its closed position.

By opening its contacts g, relay LN interrupts the heretofore described circuit for relay 8-4 so that it in turn effects the deenergization of relay S-2.

When the indication impulse is removed from the line conductors, the relay LN becomes deenergized and a circuit is completed for the relay N from the positive terminal of battery B through the Winding of the relay N, conductor I35, Wiper and contact I1 of the bank IS3, conductor I51, contacts h of relay S--2, conductor 255, contacts of relay R-20, conductor 245, contacts d of relay C3, conductor 246, contacts 9 of relay LN, conductor I54, contacts 9 of relay LP, conductor I55, contacts a of relay 0-2, conductor 241, wiper and contact I1 of bank I-S4 to the neutral of battery B. The energization of the relay N causes a negative indication check impulse to be transmitted over the line conductors L-I and L2.

The closing of the contact g of relay LN also completes a circuit from the negative terminal of battery B through contacts i of relay R-ZO, conductor 248, winding of relay S-4, conductor 246 which is connected to the neutral of battery B in the manner above described. The closing of the contacts a. on S--4 completes a circuit for relay S--2 which after a predetermined time opens its contacts h in the above traced circuit of relay N to effect the removal of the negative indication check impulse from the line conductors. The relays 8-2 and S-4 however remain energized.

At the substation, the long negative indication check impulse efiects the energization of the relays L and LN. By closing its contacts e, relay LN completes a circuit from the positive terminal battery B through the contacts 6 of the relay LN, conductor 3I1, contacts a of relay R'I8, conductor 528, contacts 1) of relay C'-5, conductor 445, contacts d of relay R'2I, conductor 446, winding of relay R-20 to the negative terminal of battery B. As soon as the indication check impulse is removed from the line conductors, a series locking circuit is completed through the windings of the relays R2I] and R2I from the positive terminal of battery B, contacts h of relay DI conductor 401, contacts g of relay IC, conductor 426, winding of relay R.-2I conductor 421, contacts a of relay R2Il, conductor 446, winding of relay R-20, to the negative terminal of battery B.

By closing its contacts 0, relay R'2Il completes an energizing circuit for the relay C'4 from the positive terminal of battery B through the winding of the relay C'--4, conductor 430, contacts e of relay IC, conductor 441, contacts 0 of relay R-20 to the neutral of battery B. If the indication check impulse is of a predetermined duration, relay C-4 has sufiicient time to operate and close its contacts 0, before relay R2I is energized upon the removal of the indication check impulse. The energization of relay C-4 completes a circuit from the negative terminal of battery B through the contacts b of the relay SC, conductor 35I, contacts a of selected apparatus unit AU'--32, conductor 344,

winding of an indication auxiliary relay IA'-32, conductor 355, contact IE and wiper of bank 5-F6, conductor 356, contacts e of relay C-4, conductor 448, contacts e of relay R20, conductor 449, contacts a of relay C'2 to the neutral of battery B. By closing its contacts a, relay IA32 completes a holding circuit for itself from the conductor 355 to the neutral of battery B. The circuits at the substation are now in a condition to receive another control impulse if the dispatcher desires to trip the breaker or to receive an impulse to reset the apparatus.

In case the dispatcher desires to trip the apparatus unit AU'-32 after it has been closed, he operates the master trip key MTK so that it closes its contacts and thereby completes a circuit from the negative terminal of battery B through the winding of the relay P, conductor I5I, wiper and contact I1 of bank I--S2, conductor I52, contacts of key MTK, conductor 245, contacts 11 of relay C--3, conductor 246, contacts 9 of relay LN, conductor I54, contacts 9 of relay LP, conductor I55, contacts a of relay C-2, conductor 241, wiper and contact I1 of bank IS4 to the neutral of battery B. The energization of the relay P causes a positive control impulse to be tzransmitted over the line conductors L--I and L- At the remote station, a positive control impulse effects the energization of the relays L and LP. By closing its contacts e, relay LP' completes a circuit from the positive terminal of battery B through the contacts e of relay L'P, conductor 3I4, contacts 0 of relay R-2I, conductor 450, winding of relay R-22, conductor 435, contacts c of relay C--4, conductor 436, contacts d of relay R--24, to the negative terminal of battery B. By closing its contacts c, relay R'--22 completes a circuit from the positive terminal of the battery through the winding of the relay C'B, conductor 454, contacts 12 of relay R--24, conductor 431, contacts 0 of relay R-22 to the neutral terminal of the battery.

If the control impulse is of sufiicient duration, relay C'6 closes its contacts a and completes a circuit, through the positive terminal of battery B from the contacts a of the relay C--6, conductor 45I, contacts a of relay R--22, conductor 452, contacts is of relay S-I, conductor 358, contacts e of relay 4, conductor 359, wiper and contact I6 of bank 5F4, conductor 360, winding of relay TEX-32 to the negative terminal of battery B. The energization of the relay C'B also completes a circuit from the neutral of battery B through Winding of relay C'-5, conductor 440, contacts e of relay C'6, conductor 44I, contacts a of relay LN to the positive terminal of battery B. Relay C'5, by closing its contacts a completes a locking circuit for itself.

The energization of the relay TR32 releases the latch L-32 so that the apparatus unit AU32 moves to its open position, thereby opening its auxiliary contacts a and closing its auxiliary contacts b so that the potential applied to the conductor 344 is reversed. The opening of the auxiliary contacts a of the apparatus unit AU-32 efiects the deenergization of the relay IA-32 and the relay IC'. By closing its contacts b, the relay IC reestablishes the heretofore described circuit for the relay IT. The deenergization of the relay IC' also efiects at its contacts 9 the interruption of the heretofore described circuit for relays R-20 and R-2I, which in turn efiect the deenergization of relays C'4, R,22 and C--6 and trip coil TR32.

When the control impulse is removed from the line conductors LI and L-2 by the dispatchers releasing the trip key MTK, relays L and L'P' become deenergized and the relay L'P, by opening its contacts a, interrupts the heretofore described locking circuit for the relay C'5 so that this relay becomes deenergized. By closingits contacts b, relay L'P completes an energizing circuit from the negative terminal of battery B through the winding of the relay P, conductor 344, wiper and contact I of bank l-S5, conductor 345, contacts a of relay I'T, conductor ill, contacts d of relay I'C', conductor M8, contacts b of relay S2, conductor M9, contacts of relays C-3 and C-2 in parallel, conductor 420, contacts d of relay LP, conductor 346, contacts d of relay LN, conductor 341, wiper and contact I l of bank lS'2 to the neutral of battery B. The energization of relay P causes a long positive indication impulse to be transmitted over the line conductors Ll and L2. At the same time the relay P is energized, a circuit is completed for the time relay S3, and this relay, after being energized for a predetermined length of time, completes a circuit for the relay Sl'2, which, by opening its contacts b, interrupts the heretofore traced circuit for the relay P and thereby effects the removel of the positive indication impulse from the line conductors.

At the dispatchers office the positive indication impulse effects the energization of the relays L and LP. The energization of the relay LP in turn effects, in a manner heretofore described, the deenergization of relay R-ZD and the energization of the relays R-I9 and IR,3 2 so that the relay IR--32 causes the red light R',--32 to be extinguished and the green light G32 to be lighted. As soon as the relay LP becomes deenergized when the indication impulse is removed from the line conductors, a circuit is completed for the relay P, in a manner heretofore described, so that a long positive indication check impulse is transmitted over the line conductors Ll and L2.

At the remote station, this long positive indication check impulse effects, in a manner heretofore described, the energization of the relays L, LT", and relay R'l9. The energization of the relay RI9 then completes, through its contacts a, the series energizing circuit for relays R-l9 and R2l. By closing its contacts 6, relay R-l9 completes an energizing circuit for the indication auxiliary relay IA'32 from the positive terminal of battery B through contacts d of relay SC, conductor 352 auxiliary contacts b of apparatus unit AU-32, conductor 3%, winding of relay IA32 conductor 355, wiper and contact l6 of bank 5-F6, conductor 356, contacts 6 of relay C'4, conductor 448, contacts e of relay R.l9, conductor 449, contacts a of relay C'-2 to the neutral of battery B. By closing its contacts a, relay IA-32 completes a locking circuit for itself.

The dispatcher may operate the selected apparatus unit AU'-32 as many times as he desires without releasing the selection. After the last operation has been performed by the dispatcher, he may release the selection by moving the select key SK---32v to its normal open position. For the purpose of this description, it will be assumed that the apparatus unit AU'--32 is in its closed position at the time the dispatcher restores the select key SK32 to its normal position. Therefore the relays I'C', R-'20 and R'2l are energized at the remote station and relay R,20 is energized at the dispatchers office when the dispatcher initials the reset operation.

The opening of the contacts 0 of the select key SK-32 interrupts the heretofore described holding circuit for the relay 4 so that this relay becomes deenergized. By closing its contacts 7', relay 4 completes an energizing circuit for the reset relay D from the positive terminal of battery B to the winding of the relay D, conductor 251, contacts 9 of the relay I, conductor I60,

contacts 7' of the relay 4, conductor 236, contacts 0 of relay Cl to the neutral of battery B. By closing its contact a, relay D completes a locking circuit for itself from the positive terminal of battery B through the winding of the relay D, conductor 257, contacts a, conductor 258, to the neutral of battery B through contacts a of relay R,-2, contacts e of relay R5, contacts 6 of relay R-8, contacts e of relay R0, contacts a of relay S2, contacts 1 of relay R| I, contacts 0 of relay R,-l4, contacts 0 of relay R,l'l, contacts a of relay C-l, contacts b of relay N3 in parallel. By closing its contacts 0, relay D completes a circuit from the positive terminal of battery B through the Winding of the relay RC, conductor 259, contacts a of relay D to the negative terminal of battery B. By closing its contacts a, relay RC completes a locking circuit for itself from conductor 259 through contacts ,7 of relay LN, conductor IBI, contacts a to the.

neutral terminal of the battery.

By opening its contacts b, relay D interrupts the circuit of the relay C2 so that this relay returns to its normal position. By opening its contacts 7, relay D interrupts the holding circuit for the relay H, and since the original energizing circuit of the relay H is open at the contacts 7c of the relay 4, relay H is restored to its deenergized position. By opening its contacts 72, the relay D interrupts the circuit to the wiper of the bank 2F4 so that none of the indication relays similar to relay IRr-32 can be operated while the switch 2F is returning to its normal position. By opening its contacts I, relay D interrupts the heretofore described holding circuits for relays BO, RL, Pv2, R--3, R-5, Rr-S, R-8, R9, Rll, R-IZ, R-ld, Eli-l5, R--l'| and R-l8. Therefore the heretofore described holding circuits for magnets l--FM and 2FM are opened so that a notching circuit is completed through each of these magnets and its respective contacts I) to restore the switches I-F and 2-F to their position 17. As soon as the switch IF reaches position 1'7, the heretofore described series circuit for relay Nl and magnet IFM is completed to effect the operation of the relay N-l When the switch 2F reaches its position 17, the heretofore described series circuit for the relay N2 and the magnet 2--FM is completed to effect the operation of the relay N2.

When the relay RC becomes energized, the opening of its contacts 3 opens the heretofore described circuit for the relay S-| so that this relay closes its contacts b and completes a notching circuit for the magnet l-SM from the positive terminal of battery B through the contacts I) of the magnet ISM, wiper and contact I! of bank IS|, conductor I62, contacts b of relay S-l, conductor 208, Winding of magnet I-SM to the negative terminal of battery B. This notching circuit causes the magnet l-SM to move the switch IS to its position 18. Since in positions 18 to 24 a circuit is completed for the relay Tl through the contacts I) of the magnet ISM, a notching circuit is completed for the magnet ISM to return the switch l-S to its position 0. When the switch [-8 reaches position zero, the heretofore described circuit for relay N3 is completed.

When all of the relays RI, R2, R-d, R-5, C-l, R-I, R-8, R-IO, R-ll, Ri3, R--I4, Rl6, R-I'I, R0, Sl, and S2 are simultaneously deenergized and the relay N3 is energized, the heretofore described holding circuit for the relay D is open so that the relay D becomes deenergized. A circuit is then completed for the relay N from the positive terminal of battery B through the winding of relay N, conductor I35, wiper and contact 0 of bank |S3, conductor I10, contacts e of relay R20, conductor 260, contacts I) of relay S--3, conductor 246, contacts or of relay RC, conductor 26!, contacts 7' of relay D, conductor 262, wiper and contact 0 of bank l-S5 to the neutral of battery B. The energization of the relay N causes a negative reset impulse of a short duration to be transmitted over the line conductors Ll, L2. The energization of the relay N also completes a circuit from the positive terminal of battery B through the winding of the relay S-3, conductor 263, contacts (1 of relay D, conductor 264, contacts e of relay N, conductor I6I, contacts a of relay RC to the neutral of battery B. By closing its contacts a, relay S--3 completes a locking circuit for itself through conductor 265, contacts e of relay RC, and contacts 6 of relay 8-4 in parallel, conductor 266, contacts 0 of emergency reset key ERK to the neutral of battery B. By opening its contacts b, the relay S-3 immediately interrupts the heretofore described circuit for the relay N so that the reset impulse is of a short duration. The opening of the contacts at of relay S--3 does not effect the deenergization of relay R-l9 because the contacts c of relay RC are closed.

At the substation, this negative reset impulse momentarily effects the energization of the relays N, LN', and the relay R--23 in the manner heretofore described. Since the reset impulse is of a relatively short duration, the relay CB is not energized for a suflicient length of time for it to operate. Therefore, when the reset impulse is removed from the line conductors, a circuit is completed from the positive terminal of battery B through the lower winding of the relay R-24, conductor 456, contacts b of relay C-6, conductor 451, contacts e of relay R23, conductor 434, winding of relay R23, conductor 435, contacts c of relay C-4, conductor 436, contacts (1 of relay R-24 to the negative terminal of battery B. By closing its contacts 0, relay R24 completes a holding circuit for the upper winding of the relay R24 from the positive terminal of battery B through the upper winding of the relay R-24, contacts 0 of relay R24, conductor 449, contacts a of relay C2 to the neutral of battery B. By opening its contacts b, relay R-24 interrupts the energizing circuit of the relay C6 so as to prevent this relay from completing its operation and by opening its contacts d, the relay R24 interrupts the circuit of the relay R23 It should be noted that the polarity of the reset impulse is determined by and agrees with the position of the selected apparatus unit. Since in the assumed case the apparatus unit AU'-32 is closed, the reset impulse is a negative impulse.

By closing its contacts a, relay R24 completes an energizing circuit for relay Dl from the positive terminal of the battery B, winding of relay D- I, conductor 43I, contacts 0 of relay D4, conductor 432, contacts a of relay R'24 to the neutral terminal of battery B. By closing its contacts a, relay D'I completes a locking circuit for itself from conductor 432 through contacts a of relay D--l conductor 462, to the neutral terminal of battery B through contacts a of relay RO, contacts e of relay R-2, contacts e of relay R5, contacts e of relay R-8, contacts g of relay R'l l contacts e of relay R-I 4, contacts e of relay R-I'l, contacts g of relay R-20, contacts of relay NO, and contacts e of relay C2 in parallel.

By opening its contacts h, relay D--l opens the heretofore described holding circuits for relays RO, RL, R--2, R3, R5, R-6, R--8, R--9, Rll, Rl2, R--I4, R--l5, R-l1, R-I8, R--2ll and R2|. The deenergization of relay R20 interrupts the heretofore described circuit for relay C-4 so that this relay drops out. By opening its contacts b, relay Dl opens the heretofore described circuit for relays 4 and 5. By opening its contacts d, relay D-l opens the heretofore described circuit for relay C2 and by opening its contacts 1, relay Dl opens the heretofore described circuits for relays C'--l and C3. Therefore, the heretofore described holding circuits for the operating magnets I-FM and 5FM are opened by the deenergization of relays 4, R-8, Rll, R-l4 and RI'l, so that a notching circuit is completed through the magnet IFM and its contacts b to restore the switch IF' to its normal position 17. As soon as the switch IF reaches position 17, the heretofore described series circuit for relay N--l and magnet l-F-M is completed to effect the operation of the relay Nl.

When the holding circuit for the operating magnet 5FM is opened, a notching circuit is completed for this magnet from the positive terminal of battery B through contacts I of relay R--3, conductor 524, contacts b of relay C4, conductor 4|3, contacts e of relay N--2, conductor 365, contacts d of relay N5, conductor 326, contacts b of magnet .i-F'M, conductor 321, winding of magnet 5-FM to the negative terminal of battery B. This notching circuit causes the magnet 5FM to move the switch 5--F from position 16 to position 24, in which position a holding circuit is completed for the relay 5FM from the positive terminal of battery B through lower winding of the relay N--5, contacts b of relay N'5, conductor 366, wiper and contact 24 of bank 5-Fl, conductor 321, winding of magnet 5-FM to the negative terminal of battery B. The current in this holding circuit is sufiicient to operate the relay N--5 so that it closes its contacts a and completes the normal holding circuit for the upper winding of the magnet N5. By opening its contacts b, relay N5 effects the deenergization of the magnet 5FM to cause the magnet to move the switch 5-F to its position 0.

As soon as the switch l-F leaves its position 16, the relay S-I becomes deenergized and by closing its contacts b, completes a circuit from the positive terminal of battery B through the winding of the relay T-l, conductor 334, contacts b of magnet ISM, conductor 333, wiper and contact M of bank I-Sl, conductor 361, contacts b of relay Sl to the neutral terminal of the battery B. The energization of the relay Tl completes a notching circuit for the mag net ISM to move the code sender lS from position 14 to its normal position 16.

When the switches I-F, 2-F, and 5-F are in their respective normal positions so that the relays N--l, N--2, and N5 are energized and when the switch I-S is also in its position 16, the heretofore described circuit for relay NO is completed to establish the normal check cir- 

